Apparatus for sealing containers



Oct. 31, 1944.

w. D. BELL APPARATUS FOR SEALING CONTAINERS Filed'Sept. 2, 1942 7 Sheet s-S heet 1 lN VENTOR WIHICIITI D BeH.

ATTORNEYS Oct. 31, W..D. BELL 2,361,366

APPARATUS FOR SEALING CONTAINERS Filed Sept; 2, 1942 7 Sheets-Sheet 2 INVENTOR William D. Bell.

A TdRNEYS Oct. 31, 1944.. W..D. BELL APPARATUS FOR SEALING CONTAINERS 7 sneets-snet 5 Filed Sept. 2, 1942 WIHIOI'D D. Dell. 8am,

' ATTO NEYS Oc t.-31, 1944. w. D. BELL APPARATUS FOR SEALING CONTAINERS '7 Sheets-Sheet 4 Filed Sept. 2, 1942 m w 4 7 lrl-O a .2 I! |l| |||a h m a Q 5 3 6 W MW M i w Y L: B 3" ATTORNEYS Oct.3l, 1944. i w, p, BELL 2,361,366

' APPARATUS FOR SEALING CONTAINERS 6 I Filed Sept. 2, 194g 1 7 Sheets-Sheet 5 g INVENTOR William D. Bell.

ATTORNEYS Oct. 31, 1944. w, p, E 2,361,366

' APPARATUS FOR SEALING CONTAINERS J w Filed Sept. 2,1942 j" 7 Sheets-Sheatfi IVNVENTOR William D Bell.

ATTORNEYS I Oct. 31, 1944'. w. D. BVELL 66.

APPARATUS FOR SEALING CONTAINERS Filed se tpz 1942 '7 Sheet's-Sheet 7 ATTORN EYS Patented Oct. A

' UNITED STAT/ES 2,361,300 arrm rus roa smnnvc commas -j William 1). Bell, Columbus; Ohio, :asslgnorto An-- chor Hocking Glass Corporation, Lancaster, Ohio, a 'col'poratlfl oi Delaware Application Septcniber 2,1942, Serial Nb. 457,035" 1 24 Claims. Myinvention relates to an apparatus for seal.

ing. containers. It has to do, more particularly;

with. an apparatus Jor producing a partial .vacuum within sealed containers.

It is the custom in theprior art to produce a partial vacuum in containers for food and similar products to prevent spoilage, by performing the sealing operation in an atmosphere of condensible vapor. Seaiing'in an atmosphere of steam: condensible vapor, is the; oldest and most 'ele -mentary of all canning operations, being as old as theart of canning food for future use. It is the method used by the housewife in the kitchen,

.where the heated material beingcanned provides its own atmospherehy vaporization.

T On a commercial basis a partial vacuum is.

often. produced inthe sealed containers bypassing thefilled containers through a tunnel or chamber in which an atmosphere oflive steam is maintained, and applying closures to the containers and sealing them on the containers while in this tunnel. Certain factors make this meth- '--od somewhat less eifectivein practice than in theory. For example containers entering the tunnel carry with them a considerable volume oi.

v atmospheric air, which the atmospherewithin the tunnel; and containers emerging iromthe tunner carry steam out with them,

resulting in a lower vacuum in the containers sealed It is the to move the conof the containers.

Oneo! the ohiectsoi my invention'is-to pro vlde anapparatus to: app ying a cap. to acontainer and to create apartlafvacuum in the'upper'end olthe the can is ini- 'tially sealed on the container-by atmospheric Another object of in: invention. is to provi e an apparatus oi'the type indicated for bri singg aboutane'xtremelyrapiddropinpreasureinthm head'space ora container beneatha cap guided into position rel'ative thereto-which will cause seating of the cap in sealing contact with the upper end of thhontainer.

- Another objector-my, invention is to provide a 'more positive/means for expelling air from the head space or a container,'wi thout thefo'f an i excessive amount or steam.

Another objector my invention is to 'providea more compact apparatus for vacuumiz'ing and sealingrcontainers. v

- Another object of my invention is to provide a continuous apparatus forvsealing caps onthe 'cedine'paiacmphsa.

containers in the manner indicated in the pre-' 10 Another object to! my invention is to'provide a continuous straight-line. machine wherein the i containers and caps maybe continuously and proy gressively fed at high speedinto association with eachother,-live steam will be'introdu'ced into 15 the head space of each container as the'cap is guided into association therewith and will quickly-v condense to hold the cap down in sealing contact with the container, the sealed container then be- ,ingmovedtoasuitahle station. e0 Another object of myinvention is toprovide a continuous machine, of; the type indicated in the preceding paragraph which is of simple and inexpensive construction but which have a 5 very high sealing capacity willseal the containas ers eflectively, and will seal the containers eco- -nomicallya Another' objector my invention is to provide ,'a machine 01 the type indicated having novel 'means therewith tor guiding the caps 30 into proper position to. be applied to the contain-' ers and for preventing them iromheingj applied.

in tilted position.

Another object or nay-mast is to provide amachine of the type indicaed having novel- --3 means for :uidinz'the containers'into sealin'g position'and for mpp ortincthem sealinsoperation..--

x In general, it is the Dractice'tomove the dul'ing'the entire ro ess of filling and sealing, on constantly moving en less conveyers "'on whichthe containers may be placedmore or lessat'random. Itisthepurposeofthis'invention to provide suitable apparatus for applying closuresto them. through a stearn tunnel or chamber, the

i, clospre-amlbinc or cap-feeding mechanism including in its construction means, for injecting beneath the "closure member as it is y-guided into n wltlrth containmso .thatitwillenterthe-head speee'otthe container.

willquickly condense after the closure member on the'container so that the desiredpartial vacuum-will be quickly prolss duced the head space ofthecontainer and thejiilled containers as they are moved valong-by. a conveyer, but without moving will. pull the closure member down on its seat on the container and holdit there. The invention also includes novel means for supporting the containers during their progress throughthe cap-feedingmechani'sm.

More specifically,- 1' preferably employ a straight-linemachine. This machine preferably embodies a straight-line continuously moving. .conveyer ,upon which the filled containers may be placed at random. Disposed above the conve'yer in spaced relationship is a cap-feeding and guiding means which is adapted to guide caps into association with the upper ends of the containers as they move past the sealing station.

At the sealing station, one of the caps is supported in such a position that it will be withdrawn from its support by a container moving into sealin ,position. Before each successive container reaches the sealing station, it is engaged by novel gripping and guiding means. 1

each container moves into sealing position and engages the cap whichis supported in downwardly inclined. position by the cap-feeding and guiding means so that the upper end or the container' will engage the skirt of the cap. A charge of live steam is supplied automatically when the cap is withdrawn from the supporting means by the container. The steam is in the form of a jet and is first charged into the angular space between the cap and container. This jet of steam "first impinges upon the inner or lower surface of the cap, and-bycondensation deposits a film of moistureupon this relatively cold surface of the interior of the cap, the outer surface of thecap being-in contact with air only. As the forward movement of the container and cap withdraws the cap from the'cap-supporting means,

- the rear edgeof'the-cap, being no longer supported by the cap feed, drops down to a relatively level position-upon th finish of the container.

. During this brief interval, the jet of live steam permanent sealing oi the containers. Whether or not the mechanical means is used for effecting permanent'sealing will depend upon the type or closure being used to seal the container. With some caps, mechanical pressure will be desirable to effect the final sealing but this mechanical sealing may occur a considerablev period of time after the initial sealing has been efi'ected. with some caps, such as a top seal cap, the final sealing with mechanical pressure will not be necessar for applying the closures and of producing the partial vacuum, anembodiment of the invention is illustrated in the accompanying drawings. However, it is to be understood that there is no intention to limit the invention to this detailed embodiment.

. In these drawings similar characters of reference designate corresponding parts and:

Figure l is a side elevational view of a machine which I preferably provide for applying closures and producing a partial vacuum in containers.

Figure 2 is a top plan view of the .machine shown in Figure 1.

Figure 3 is a perspective view, partly broken away, of the sealing unit and associated mechanism of the machine shown in Figures 1 and 2. Figure 4 is a longitudinal vertical sectional view taken substantially along line 4-4 of Figure 2.

Figure 5 is a horizontal sectional view taken substantially along line 55 of Figure 1.

Figure 6 is a transversevertical sectional view taken substantially along line 6-4 of Figure 1.

Figure? is an enlarged vertical sectional view illustrating the container moving into position to withdraw a cap from its support.

Figure 8 is a view similar to Figure '7 but show ing the cap being withdrawn by the container and actuating the valve for charging the steam beneath the cap.

Figure 9 is a view similar to Figure 8 but showing by full lines the cap in its initially sealed position on the container and by dotted lines the cap in the position it occupies just before it seats on the container.

Figure 10 is a schematic view in perspective oi! I the'driving mechanlsm of my machine.

Figure 11' is aplan view of mechanism which may be employed for gripping the container during the sealing operation.

Figure 12 is a view similar to Figure 8 but showing a. different type of cap being applied to comes into contact with the outer or upper surface of the cap and raises its temperature sufilciently to vaporize the film of water upon its inner surface. This results in an expansion of the vapor within the head space at the instant below the cap is so high and the specific gravity so low that cooling, with a corresponding drop in pressure, is so rapid that the cap will be drawn down into firm sealing relationship with the upper end of the container. I

After the cap is applied tothe container and cated above, the containers may be moved to a station where mechanical means is used to'eflect the container. r

Figure 13 is a view showing how the cap applied 1 in Figure 12 may be crimped in final position.

Figure 14 is a view similar to Figure 12 but showing another typeof cap being applied to the container.

With reference to the drawings, and particularly to Figures 1 and 2, I have illustrated one iform of my apparatus as comprising generally a supporting table and conveyer unit I, a vacuumizing and sealing unit 2, a container gripping and guiding unit 3 and a mechanical pressure sealing unit 4. The unit I will feed the containers continuously into association with the unit 2 where a cap'will be guided into association with the upper end of the container, and steam will be charged beneath and on the cap as the cap is seated on the container. While the container isassociated with unit 2. it will be gripped by the -is initially sealed thereon in the manner indiunit 3. The unit 4 will serve to apply-mechanical sealing pressure to the cap and may or may not be used, depending upon thetype of cap employed.

3 order to aid in understanding my apparatus I 2 assists lain-the rormcratemehavm rour Theunit 'l I I -legs3whichsupportatopplate3.-I.ongitudimlly extending beams'l are bolted to the-table-intermediate its side edgesand project from each end thereof. As shownbest'in1 lgures2,3and6,-a Miro! l'ongitudinallyextending spaced strlps 3 are 1 secured-to the top-plate3 and these strips extend t over-the top surfaces of members I. Interme-- diate the stijIpsO- a third longitudinally extending strip-9 is provided whic'his secured tothe top "piat'3 and beams I. These three stripsse'rveto provide longitudinally extending channels I 3 (Figout of their sockets '29; The extreme lower ends of theguide'rails 23 are rigi secured to a pair of forwardly; projecting brackets 3l "(Fl gure 3)- whichare secured to angle member supports 32.

ure 3) on'top of the pistol andbeams "l which receive apair of chains 'II. The chains II are .of the sprocket type and extend longitudinally throughthe channels |3.- The; chainsslideon the top surfacesof plate 3 and beams I and project slightly above .the bars 3- and 9 so that they will support the bottom of a container, in the manner shown in with the bars.

The chains II. are endless chains and pass around double sprocket units-l2 and I3 disposed Figure 6, out of contactv I attached at itsupper. end to a block 39 secured to bracket 23 which cooperateto space the spring member 35 the proper distance .from rails 23. r

at opposite ends of the table. The sprocket units I a sprocket N! which is keyed on the transversely disposed horizontal shaft l9-that is rotatably can ried beneath the plates. The sprocket I3 is dis .posed intermediate the length of the shaft l9. One endoftheshaft l9 extendsinto agearunit 23 which drives it and which, in turn, is driven byan-electric motor 2l. Thennits 2|) and 2| are supported by the lower. surface of plate 3.. Thus, "whenever the motor 21 is energized, the chain conveyer willbe driven continuously.

The unit 2 is disposed at a level spaced vertically. above the chain conveyer-depending upon I theheightofthe container being sealed. The

unit 2 is disposed in alignment with the conveyer substantially midway between the side 6686 Q! I the. table. Fln'thermore, itis disposed intermediate the length of the conveyer and-table. Containers placed at randomf on' the chain conveyer behind the unit 2will be moved progressively. by

the continuously moving I tion with the unit 2.

conveyer; into associa- IThe unit '2 includes a downwardly and for-- The supports 32 extend horizontally rearward]! to thevertical supports .23 to which they are secured. A transverseLv extending block 33 is secured to the horizontal supports 32. .The block '33 is provided with adownwardly' inclined forward upperedge P rtion 34. The inclination of' this edge is the same as that of rails 23'and the edge is disposed flush with the lateral surfaces of the rails. The block 33 is made in two sections secured together by screw 33a (Figure v4) As shown best in Figures 3, 4 and 5, the bracket 23 carries a downwardly and forwardlyextending flat spring .35 which is suppo ed midway-between and above rail members 23. This spring 33 is The spring 35 normally extends downwardly at the same inclination as the rails 23.- It extends a considerable distance beyond-the lower ends 31 of the rails The extreme lower end of spring 35 has a bearing collar 39 secured thereto in which a shaft 39 is mounted for rotatable and slidable movement. A pair of rollers 40 are keyed to the shaft 39 adjacent'its outer ends. Spacer sleeves 4| are provided on shaft 39 between rollers 40 and member 38 to limit longitudinal movement of the shaft., The sleeves 4! are of aproperlength to permit hunted axial movement of the.-

shaft 39 in bearing 38." Each of the rollers 49 is provided with a circumferential flange 42 at its outer side. The flanges 42 are spaced apart a distance corresponding to the diameter of the gage the. side edges of the cap while the circumferences 43 of the main part of the rollers will engage the top surfaces of the caps adjacent,

' their edges. It willbe apparent that the rollers 49 are free to rotate and are also free to move laterally to .a limited extent. Also, since the rollers are supported by spring 35, theyiare flexi-- bly mounted and can be moved bodily vertically.

The roller-supporting shaft 39 extends out.-

wardly a considerable distance beyond rollers 43 at each end (Figures 3 and 5). These extensions v 44 rest-on'the' forward ends of a pair of rods 43-.

.These rods 45-extend rearwardly horizontally to wardly inclined capchute 22. This chute-ya" (Figures 3," 4 -and- 5) comprises a pairofspaced guide rails 23 which are in the form of angle' members. These rails 23 are properly positioned to support caps 24 which are in edge-toedge relationship. A bar 23 disposed intermediate guiderails 23 and above the rails serves to prevent the caps from riding upon each other as they slide down the chute. The -lower end'of the bar-29 is supported by abra'cket 23 which issecuredtotherailsfl. Thelowerendofthe bar 23 is turned downwardly slightly, as at 27,- (Figured).

The rails is are secured to the upper that: verticalsupports 23. These supportshave threaded lower ends mounted for vertical movement in,

socket members 29 carried by the top plate 3 of a point adjacent the vertical supports 23. The rear .ends of rods 45 are secured to cdllarmemhas 43 which are keyed on the outer ends of a transverse horizontally shaft 41. The shaft 41 is mounted for rotation in bearing members 43 securedto members 23. Midway between its ends the shaft .41 has a'forwardly extending zontal position thereon. This member, 49 has the rear endof a flat spring 53 secured to; the forward I end thereof. This spring 33 projects horizontally I .forwardly over'the block member 33.

vertical movement in an opening between the ends of block.33. This plunger It in the block '33. This valve 8 68 3 and 4) includesadisk-likr portion 53, formedon the r I lowergend of piimger II, which is for the table on opposite sides of the chain conveyer. 1 vertical movement in achamberfl formed within use We on. portions ofmembers 23 for-moving cap 24. Thus, flanges 42 of the rollers -will enclamp member 49" clamped in substantially hori- The forward end of spring '53 engages the upper I end of a projecting plunger 5| mounted for formed midwayis part of a steam supply control-valve, indi cated generally by numeral 52, which is mounted member 53 on the seat 51.

4 block 33., This chamber 56 is providedwith an annular valve seat 51 upon which the member 53 is normally held seated by means of spring 50 and plunger 5|.

The spring 35 is normally in such position that the rollers 40 and shaft 39 will be in their lowermost positions. At this time, the extensions 44 of shaft 39 will press downwardly on the forward ends of rods 45. This will swing the forward end of spring 50 downwardly about the axis of shaft 41 and will press plunger 5| downwardly, seating The rollers 40, as

a and withdraws it from the chute. As, the capis withdrawn from the chute, the, cap pivots aboutv previously indicated, are flexibly mounted and when they are moved upwardly, there will be no pressure on the forward ends of'rods 45. Consequently, spring 50 will not be held downwardly, with any appreciable force, in contact with the upper end of plunger 5|. This will permit steam. pressure within inlet passageway 58, below seat- 51, to lift member 53 from the seat 51. This will allow steam to enter into chamber 56. The passage 58 will be connected to -a suitable source of dry steam. An outlet passageway 59 leads from the chamber 56 and has a forwardly directed discharge nozzle portion 60 formed in the forward vertical edge 34a of the lowerportion of block 33. This discharge nozzle fiaresoutwardly in all directions to form a wide mouth as shown best in Figure 3. The forward edge 34a of the. lower section of the block 33 is curved, as indicated best in Figure 3, to substantially the same curvature as the caps to be used.

The caps which I use for sealing the containers may be of various types. In Figures 4 and '7 to 9, inclusive, I have illustrated side seal caps being used. These side seal caps are commonly used for sealingglass jars of the type shown in-the the rear edges of the rollers. The rollers will be raised duringthis action, as shown in Figure 8.

The rollers ill will also move lateraly, if necesalignment of the cap and As the container continues'to move,

sary, to permit lateral container. the cap will be-guided into cooperative position with the upper end thereof and will be positioned thereon. The'suecessive steps of this operation are illustrated best in Figures 7, 8 and 9. When rollers 40 are lifted by the cap, no force will be applied to the outer ends of rods and, there- 'fore, steam supply valve 52 may open, as will be described in detail hereinafter. 4

In order to insure the proper seating of the cap upon the finish of "the container, I provide a pair of guide rails 61. These rails are so positioned that they provide a fulcrum about which the cap rotates to an approximately level position as it is seated upon the container. 1 These guide rails 61 (Figures 3 to 9) extend longitudinally in spaced relationship and have their rear ends rigidly connected, as at B8, to a yoke 69. This yoke 53 is supported on thesupports 32 behind block 33 by means of a screw 10 passing through an opening formed in yoke 69 midway. between its ends. This screw is threaded into a bar ll secured to supports 32 transversely thereof. As shown in Figures :4 and 7 to 9, the head of the, screw 1.0 fits into the opening in such a manner that limited universal movement of the drawings and indicated by the numeral 6|. This body portion 64 having a depending peripheral skirt 65. This skirt carries on its interior a compressible gasket 66.- When the cap 24 is forced down into telescoping relationship with the upper endof the container'B l the gasket 86 will contact with the vertical surface 62, forming a tight fric-- tional seal. However, it is to be understood that my invention is not limited to the particular type of container or cap shown in the drawings.

The caps fed into the chute 22 will be in edgeto-edge relationship, as previously stated. The lowermost cap will slide down to the position shown in Figure '7 until it' engages the rollers 40. The lowermost cap will move downwardly until its lower edge moves between the flanges 42 of the rollers 40 and. the surfaces 43 of the rollers engage the top surface of the cap. Then downward movement of the lowermost cap will be stopped. At this time, the-extensions 44 of shaft 39 will be restingon the outer ends of rods 45 and, consequently, valve 52 will be held closed yoke 69 relative to the bar It will be permitted. The guide rails 81 are spaced apart laterally a distance slightly greater than the diameter of the reduced upper portion of the containers. Thus, the upper ends of the containers may move freely therebetween and they will alignwith the containers. .However, the spacing between rails 61 is snch that the; skirt of the cap will be engaged, at diametrically opposed points, when the cap moves downwardly to a predetermined position, as shown in Figure 8. As the cap is removed from the chute, its rear edge moves off the and there'will be no steam issuing from nozzle portion 60. The lowermost cap is held in the end of the container engages the skirt of the cap block 33 and the guide rails 51 exert a leveling action on the cap, and will prevent the cap from being applied in tilted position on the container. The guide rails 61 are at such a level, as shown in Figure 9,'that when the gasket 65 of the cap is in contact with the vertical surface 82 of the container, the skirt of the cap will not be in contact with the rails 61.

Thus, the rails 61 will cooperate with the rollers in to level the cap relative to the upper end .of the container as it is withdrawn from the -chute.-- However, the rails 61 will not interfere with the cap beingbrought down into, sealing contact with the upper end of the container.- The rails 51 may swing laterally or move vertically to a limit extent. Thus, they will cooperate with the rollers 40 in positioning the cap laterally relative to the container. As the successive containers continuously move beneath the lower end of the cap chutejeacli container will withdraw a cap which will'be guided into position and leveled into horizontal position relative to the upper end of the container,

As each cap is engaged by, a container and pulled from the chute, the rollers 40 are raised thereby relieving pressure, onlthe'forward ends of rods 45. This allows the valve 52 to be opened. A charge of live steamwill-be supplied by nozzle portion 63 into the angular space between the upper end of the container 5| ang the cap 24, as shown in Figure 8. Thisxjet of impinges to P ovide-this upon the inner or lower .of the cap, and

by condensation deposits a dim F of moisture upa on this relatively cold surface of the interior of assiste pingmeansisshownbcstinl'iguresitoains the cap. theouter surface of the cap being in contact with air only As the forward movement of the container and cap withdraws the cap from: the chute 22, the rear edge of the cap drops on the edge of the supporting block 33 and down elusive, 6, 1o 11.:

This gripping means comprisesa pair of grip. um rollers ll. These rollersare disposed at opposite sides orthe chain conveyer and adjacent the unit 2. They are disposed horizontally at such a level,'spaced.above theplate 8, thatthe to a relatively levelposition, as shown in Figure 9. As the topportion of thecap passes the upper wall 88a of the nozzle portion III, 'the Jet of 'live steam, issuing from the upper portion of the nozzle, will come into contact with the upper surface of the cap, This will raise the temperature of .the upper portion of the cap sufliciently to vaporizethe film of water upon its inner surface. This resultsin an expansion of the vapor beneath the cap and within the head space of the container-at the instant of sealing, when the cap seats on the container; Consequently, there will be a-more complete displacement of air and a 1 higher vacuum. When-the cap reaches horizon- I tal or level position, the rollers 40 will be intheir original low position and the extensions 44 will press downwardly on the outer ends of rods 45.

This will close valve 52 and will shut ofl' the flow I of steam from nozzle portion 60. Instantly with the shutting oil? of the flow ofsteam into concontainers supported by the oonv'eyer and moved successively therebetween will be properly supported}?! the rollersn Each of the rollers 13 comprises a wheel 14 (Figure 3) upon which a pneumatic tire II is mounted. This the may be inflated by means of a valve 18-. The wheel ll isprovided with a hub 'I'I which'is keyed'to the upper end ofa shaft 18 (Figures land 10).

The shaft-passes down through the plate 8 and is'rotatably mounted in a bearing 18 thereon.- .The center portion of the wheel is normally covered by'a removable plate 88. Each of the shafts 18 has a bevel pinion 8i keyed on its lower end below the plate 8. The pinions 8| mesh with bevel pinions 82 keyed on the ends of transverse horizontal shaft 88 which is rotatably carried J beneath the plate 8. Midway between its ends tact with the cap, the pressure within the head space of the container beneath the cap will drop -so rapidly, as a'result of the rapid condensation of the steam, that atmospheric pressure will press the cap into sealing position and will be sufllcient to hold the cap down on the container with the gasket 88 lnsealing contact with the container. ,The jet of steam admitted directly to the head spaceof the container beneath the cap resuits in a high degree of turbulance in the head" space and, therefore, a more thorough displace .ment of the air therefrom.

The drop in pressure will serve to down into sealing contact with the upper-end of the container-and may draw the skirt downwardlysothat thegasketwill be in partly 'telescop'ing relationship to the surface-62, as shown in Fig- 40 drawthecap from the lower end of the cap feed. This is where the gripping action is needed most. Thus,

are '9. However, the gasketwill always be drawn into firm sealing contact with the upper end of the'contain'er bythe reduction in pressure in the :head space ofthe container beneath the cap.

Thus, the cap is initially sealed on the upper end of the container by the-Icharging of the steam beneath the cap eral portions thereof will travel in the same direction and at the same veyerohain.

' Asindicated in Figure 11, asthe containertl' is brought between the converging surfaces of the rollers 18, by the continuously moving conveyer, the container is driven firmly but resiliently between the rollers. It will be noted from Figures 2 and 5 that the axes of rollers 13 are substantially in alignment with the lower end of the can feed. Consequently, the rollers will exert their greatest gripping force on the container as the container is Withdrawingthe cap with this structure, there 'will beno danger of the container being upset as it withdraws the 4 cap from the cap feed The amount of the gripping action, that is, the resilient force exerted .In order to guide the containers laterally of Q the chain oonveyerinto proper association with the unit 2, 'I provide diverging guide members Jlwhich are-shown in Figures 2, 3 and 5.; These guide members '|2 are carried bythevertical;

supports "intermediate the'helght thereof, as

shown in Figure 8, and extend rearwardly there.- from. As each container is 'moved into associatio'n'with the unit 2, the members 12 will engage it and unit 2.

In. order to grip the containers and prevent position it in alignment with the rearward slipping thereof as each container withdraws a cap from the cap feed, 'I provide.

novelcontainer gripping means which functions as the container engages the eapand withdraws it from the chute. It. is particularly important eans when small diameter containers are fed' inasmuch as they have a tendency. to' upset'rea'rwardly 'when the upper end .of the moving container engaaa the stationarily supported dependent cap. This gripby the rollers on the container, may be varied by variations in pressure-of the air within the pneumatic .tires 15. As the container moves along, it will pass a line extending-through the axes of these rollers and will therefore reach the diverging portions of the roller and will be re-- 'leased.- After'thecaps have been applied to'the 'containers in the manner indicated, the'containers may be subjected to the mechanical pressure,

sealing unit 4 or. its equivalent. Whether or not they are subjected to this unit 4 will depend upon the type of cap being used to .seal the containers. If it is a side seal cap of the type previously described, it willbe desirable to use such a mechani-cal sealing unit as the unit 4. However, the

unit 4 need not necessarily be mounted directly adjacent the unit 2, although it is preferred to have it so mounted. The mechanical pressure sealing may occur; after a considerable period of time hasfelapsed subsequent to the initial seal-e ing by the combustible mixture.

The unit 4 is illustrated bestin Figures 1, 2'

and 10. It comprises an endless belt 81 mounted in substantially the same vertical plane as the chain conveyer. This endless belt is disposed at linear speed as the con-' a proper level to force the cap down into the final sealing position on the containers with the gasket 66 in frictional contact with the vertical surface 62 of the container.

The endless belt 81 is made of suitable flexible material. It is carried by a pair of longitudinally spaced transversely disposed rolls 88. These rolls 88 are keyed on transverse horizontal shafts 89 which are rotatably carried in bearings formed m'cspheric pressure will press the cap on its. seat on the container and will be sumcient to initially seal the closure upon the' container. The jet of steam admitted directly to the head space of the container beneath the cap results in a-high degree of turbulence within the" extended head space and a more thorough purging of the air from the sealing zone witha more economical use of steam than could otherwise be attained on the upper portion of a vertical support 811 10 such as by the methods employinga steam chamwhich -is disposed along-one edge of the chain conveyer and extends longitudinally parallel thereto. This support 80'is bolted to the upper surface of plate 6, as at 8|. Between the rolls ber or tunnel.

moves into'association with the unit 4 which will apply mechanical pressure to effect the final seal- 88 and above the lower strand of belt 81 is a ing operation. The vacuumizing and sealing oppressed plunger structure 83 which'is carried by; the support 90. .The shoe 82 is normally forced downwardly. The roll '88 at the rear is higher n and containere an s p d wi a than the one at the front. Therefore, as the 7 container moves beneath the belt, the cap will be gradually pressed down into its final position on the container, the shoe 82 serving to produce skirt 65a adapted to be deformed around a bead 8201. on the container to mechanically anchor'the cap in position. The cap-is provided with a side seal gasket 66a and with a top seal gasket 68b.

a resilient pressure thereon, 5 The cap is applied to the container by the unit of the shafts is extended an has a bevel pin-l ion 84 keyed thereon. This pinion 84 meshes with a bevel pinion 85 keyed on the upper end of uum created within the container will be suffla vertically'disposed shaft 86 which is suitably supported by plate 6 for rotation. The lower end of shaft 86 has a bevel pinion 81 keyed thereonwhich meshes with a bevel pinion 88 "keyed on I the outer end of shaft l8. Thus, the belt 81 and and to subject the skirt tov a bending 8Ctl0ll,

the chain conveyer II will both be driven by shaft l8 and will be driven at the same linear speed. Consequently, as the chain ll moves the initially sealed containers beneath the belt 81,

2 in exactlythe same manner asbefore. The

initial seal-will be effected by seating the cap on.

the container with the gasket 66b in contact with the upper end of the container. The vaccient to hold the cap in position. Then, the container wtih the cap thereon is moved to another sealing unit la which consists of a chuck lb that is adapted to surround the skirt of the cap the unit 2 and themechanical seal is later efthe caps will be forced, downwardly by the belt 4 teci' b he it A lon period'may e apse into their final positions.

In the operation of my machine, the filled con: tainers are positioned on the chain conveyer,

regardless of spacing, and the conveyer will first between these two sealing operations.

In Figure 14 I illustrate my apparatus being employed with a cap of the top seal type. This cap is provided with a top seal gasket 85c adapted carry the containers to the unit 2. .As they move 5 to seat upon the p edge 0! he c n ainer. Th

into association with thisxunit, they will be gripped by the unit 8. At the unit 2, one of the caps will be engaged by the container'and will be. withdrawn from the. cap chute. -The cap-isapplied by the unit 2 exactly as before. However, with this type of cap, it will not be necessary to. use any mechanical sealing unit.

The vacuum created-withinwthe container by valve 52 will be actuated to supply a charge of so h u it 2 willserve to retain t e 09418111 D gular space between the cap and container. This jet of steam first impinges upon the inner or tion.

that I have provided a sealing-machine for applying a cap to a container and for creating a lower surface of the cap, and by condensation P l vacuum in the upper e'lid 0f e n iner deposits a film ofmois'ture upon this relatively cold surface of the interior of the cap, the outer I surface of the .cap being in contact with air only.- As the forward movement of the container wherein the cap is applied to the container in sealing. contact therewith by atmospheric presahd 'cap withdraws the'cap from the cap chute, 1g p s es im e steam comes into contact with the outer or upper surface of the cap and raisesits temperature suffr iclently to vaporize the filfnof'water upon its inner surface. This results in an expansion of f the v'apor-wifthinthe head space at the instant is cut off by .valve 52, the pres'sure withinthe fhead space will drop so rapidly, as a result of the rapid condensation of the "steam, that at- .75 entrapment of too much moisture beneath the During sealing of the containers, live steam will be supplied" first beneath the caps and then on top of the caps: in order. to eliminate any mois ture from the-interior surface ofthe .caps'. As-

soon' as the cap is seated, the drop in pressure beneaththe cap within the headspace of the v container isso rapid, as the result of the very rapid condensation of the steam; that atmos-' pheric pressure alone is sufficient to seal the cap of sealing, resulting in' a more complete displaceupon the container when it is supported in proper I merit displacement of air and a higher evacua- 'tion. the cap is seated and the jet of steam 1 relationship to the upper endof the container.

' of a steam tunnel 'or' chamber thereby resulting in an economy in' steam andalso precluding the It will be apparent from the above description cap. Furthermore, makes it possible use assists, '4 chute for charging steamiirstbeneathand-then much more. simple and compact apparatus.

I Various other advantages will be apparent from I the preceding description, the drawings and .the

- following claims.

claim is:

Having thus described my invention. what I 1. Apparatus for 'sealing..caps on-containers comprisinga conve er, a cap-feeding unit disposed above the conveyer for supporting caps in means associated with the cap-feeding unit for position to -be engaged and withdrawn by Sue!- cessive containers carried by the conveyer to ap-.

ply the caps to the containers, means associated on the outer surface of'the lowermost cap as; is applied to the container, and means actuated by ithdrawal of the cap from the cap chute for actuating said last-named means: I 9. Apparatus according to claim 8 wherein theconveyeris driven continuously. w

10. Apparatus-according to clain'r8 wherein a mechanical sealing member is associated with the 1 I conveyer'forengaging the capped container after I the cap is applied thereto.

with the cap-feeding unit for injecting live steam beneath each cap as it is withdrawn and applied to each successive container, and control means for said last-named means actuated by withdraw- I al 'of the. cap from said unit. I I 2. Apparatus for sealing caps on containers comprising a continuously moving conveyerpa cap-feedingunit disposed above th'e conveyer forv 11. Apparatus according to ea-mt wherein,

horizontally disposed guide rails are provided-beneath the cap chute for engagingthe cap to move 'itinto horizontal position; I I

12. Apparatus according to claim 8 .whereinu a pair of rollers are provided at the lower end of 1 the cap chute'for engaging the top surface of the I 'supportingfcaps in. position to be engaged and I I .withdrawn by successive containers carried by the conveyer to apply the caps-to the containers,

injecting, live steam'flrst beneath each cap and then 'on the cap as it is withdrawn and applied to eachsuccessivecontainer, and control means for said last-named means actuatedby withdrawal of thecap from said unit.

3. Apparatus for sealing caps .on containers comprising a straight-line continuously moving I conveyer, a cap-feeding chute disposed-in inclined position above the conveyer for feeding successive caps into position to be engaged and ated by withdrawal of the cap from the cap chute.

withdrawn by successive containers carried by the conveyer to apply the caps to the containers. means associated with the: lower, end of'the capfeeding chute for injecting live steam beneath eachcap as'it'is applied to each container; and controlmeans for said last-named means actu- 4. Apparatus according to claim 3 wherein the means for injecting steam beneath the cap also acts to supply steam in contact with thetop of the cap as the cap -approaches horizontal seating position on the container. T

' 5..Apparatus for sealingv caps on conta ers comprising a conveyer, a cap-feeding unit disposed above the conveyer for supporting a. cap

cap-at diametrically-opposed points, said rollers being flexibly mounted for vertical movement.

.13, Apparatus accordingto claim 8 wherein horizontally disposed-guide rails areiprovided be neath the cap Jchute for engaging-the lower 'sur-' face of the cap to'move it into horizontal posi- 'tion, and rollersare provided at'the lower end of the cap chute for-engaging the top-surface of the posed above the conveyer, means associated with the lower end of the chutefor supporting the lowermost cap, in tilted positionto be engaged by the next container carried by, the conveyer, a

steam jet associated with the lower end of the cap chute opposite the supported cap for first injecting steam' beneath the cap as it is withdrawn from the chute and then onto the cap as it approaches seated position on the container, means for leveling the cap on the container as it is withdrawn by the conveyer; said means comprising a Ypairof guide railsdisposed below the cap chute I and projecting forwardly thereof, said guide rails being spaced apart at such a distance that they will engage the 'lower edge or the cap.

in position to be engaged and withdrawn by a container carried by the conveyer to apply the cap to the container, a steam jet associated with the cap-feeding -unit and directed toward the supported cap for charging steam beneath 'the cap- I as it is'appliedto: the I container,--and control I means for said steam jet actuated by withdrawal of the cap from said cap-feeding unit by the con- .tainer.-- p I 6. Apparatus according'to claim 5 wherein said steam'jet has a nozzle'portion of sufflcient extent that the top surface of the capwill be subjected steam as t e cap pproachesseating position I I n thecontainer.

'1. Apparatus according to claim 5 wherein said I conveyer is driven continuously. I

8. Apparatus for sealing caps on containers- .comprising a conveyer, a cap-feeding chute disposed in inclined position above the conveyer, .means associated with the lower end of the cap- -feeding chute for supporting the cap in inclined "position tube. engaged and withdrawn by the next container. moved into association therewith by the conveyer to apply the cap-to the container,

lower end of the cap means associated with the 16. Apparatus according to claim 15 wherein theIsupply of steam to the steam jetds controlled by means actuated by withdrawal "of the. cap from the cap chute. I

1'7 Apparatus according to claim 15 wherein said guide rails are 18."Apparatu s according to claim- 15 wherein a roller is provided at the lower end of the cap. chute forengaging the upper surfaceof ermost-cap in the chute;

- 19. Apparatus according to claim 15 whereinv apair of rollers are supported at thelower end of the cap chute for engagingthetop surface of the lowermost cap' at diametrically opposed points as it is withdrawn from the cap chute, said rollers having flanges extending over the side edges of the cap. 4

2.0.. Apparatus according claim 15'wherein a pair of rollers'are provided at the lower end or the cap chute for engaging the top surface of .the lowermost cap at diametrically opposed points as it is withdrawn from the cap chute,- said rollers havingflanges extending over the side; edges of the cap, said rollers being mounted for limited lateral movement and limited vertical movement. 21. Apparatus for sealingcaps on containers mounted for limited lateral and vertical movement. a

the lowv comprising means for progressively moving the containers, means for supplying caps to successive containers during their progressive move ment, and means for supplying steam beneath the cap and in theihead space of each container during its progressive movement, said last-named means being controlled by said cap-supplying means. g

22. Apparatus for sealing caps oncontainers comprising a conveyer, a cap-feeding chute dis- I posed in inclined position above the conveyer,

means associated with the lower end of the capfeeding chute for supporting the cap in inclined position to beengaged and withdrawn by the next container moved into association'- therewith by the conveyer to apply the cap to the container,

means associated with the lower end of the cap chute for charging steam beneath the lowermost cap as it is applied to the container, a valve for controlling the supply of steam to said last-named means, and means actuated by withdrawal of the cap from the cap chute for actuating said valve.

aaenaee 23. Apparatus according to claim 22 wherein a pair ofroliers are provided at the lower end of the cap chute for engaging the top surface of the cap at diametrically opposed points, means for flexibly mounting said rollers for vertical movement,-and connecting means for operativeiy conhecting said flexibly mounting means to'said valve said arm operating said valve and normally hold ing said valve in closed position.

n. BELL. a 

